周志伟-北京工业大学研究生招生网

导师队伍

当前位置：网站首页 > 导师队伍 > 硕士生导师 > 学术学位硕士生导师

周志伟

职称职务：教授，博士生/硕士生导师

E-mail：zhouzw@bjut.edu.cn

通讯地址：北京市朝阳区平乐园100号北京工业大学西区建工楼

基本信息

北京工业大学教授，博士生/硕士生导师，第四层次引进优秀人才。聚焦于水处理中的水质安全保障技术与深度净化技术与原理、碳基材料研发及其除污染与循环利用等领域。主持或参与国家/省部级项目15项（含结题）和5项委托横向课题，其中主持3项国家自然科学基金面上项目，1项国家重点研发计划子课题，1项省部级自然科学基金，已发表学术论文100余篇，以第一作者或通讯作者在Water Research、Journal of Membrane Science、Journal of Hazardous Materials等期刊发表一区SCI论文40余篇，ESI高被引2篇，申请国家发明专利20项，参编专著1部，参编团体标准2部，受邀参加行业顶级会议并作口头报告4次。获得过全国优秀博士后、湖北省科学进步奖、北京市科技进步奖等奖励。担任中国城镇供水排水协会青年委员会委员，中国化工学会工业水处理专业委员，国家自然科学基金通讯评审专家，教育部学位中心论文通讯评审专家，北京市科委评审专家，山东省科技项目评审专家，为国际上Nature Water、Environment Science & Technology、Water Research等二十多种环境领域期刊审稿人。

电话：010-67391645

E-mail:zhouzw@bjut.edu.cn

通讯地址：北京市朝阳区平乐园100号北京工业大学西区建工楼

研究方向

1.饮用水水质安全保障理论与技术，包括常规工艺优化，高级氧化、以超滤为核心的深度处理技术与组合工艺，水厂智能投药模型与系统开发等。

2.饮用水厂生产废水和污泥资源化利用技术，包括排泥水、滤池反冲洗水、膜滤浓水与反洗废水的安全回用，污泥无害化处置与资源化利用。

3.污（废）水深度处理技术与原理，新型一体化水处理装备的开发与应用、粉末活性炭和颗粒活性炭的改性、再生与循环利用。

4.碳基材料除污染与循环利用技术与原理，包括二氧化钛、石墨相氮化炭和可磁分离回收尖晶石等碳基复合功能材料的开发及其应用

课程教学

本科生教学：给排水工程仪表与控制、给排水科学与工程概论

研究生教学：水处理新技术与新工艺、给水处理理论与技术

科研项目

[1]国家自然科学基金面上项目，污水再生光催化氧化/超滤耦合工艺的膜污染机制与调控原理研究，在研，主持

[2]国家自然科学基金面上项目，PAC/Bi₂O₃/TiO₂耦合材料的吸附/光催化氧化/原位再生技术对典型抗生素的协同去除作用机制研究，主持，结题

[3]国家自然科学基金面上项目，粉末活性炭热再生过程的超声波强化解吸作用机制研究，结题，子课题主持

[4]国家自然科学基金面上项目，给水处理过程产生的天然生物聚合物的絮凝作用与污染物共去除机制研究，在研，主要参与人，排名第2

[5]国家自然科学基金面上项目，超声波用于净水沉淀污泥无害化处理及污泥回流强化低浊水源水混凝特性研究，结题，主要参与人，排名第3

[6]十三五国家重点研发计划，公共建筑供水系统精细化智能节水技术设备研发与工程示范，结题，子课题主持

[7]北京工业大学第四层次优秀人才引进计划项目，高效环境功能材料在水处理中的应用基础研究，主持，结题

[8]哈尔滨工业大学城市水资源与水环境国家重点实验室开放基金，基于Bi₂O₃-TiO_2/氧化石墨烯涂覆超滤膜的除污染机制与膜污染控制研究，在研,主持

[9]湖北省自然科学基金项目，粉末活性炭的“超声波-热”再生机理及其深度处理印染废水研究，结题，主持

[10]国家水体污染控制与治理科技重大专项，污泥回流强化混凝处理低温低浊水的试验研究，已结题，主要参与人

[11]科技部国家科技重大专项“引黄水库水超滤膜处理集成技术研究与示范”，主要参与人

[12]“十二五”国家水体污染控制与治理科技重大专项课题任务，南水北调山东受水区饮用水安全保障技术研究与综合示范，结题，主要参与人

[13]国家科技支撑课题“建筑室外水系维护与节水关键技术研究”子课题“高效低成本景观水体维护与水质改善设备研发”，结题，主要参与人

荣誉和获奖

北京市科技进步奖；湖北省科技进步奖；北京工业大学优秀人才引进；北京工业大学优秀博士毕业论文；给排水行业优秀博士毕业论文；第12届上海同济高廷耀环保科技发展基金奖学金；奥加诺“水质与水环境”奖学金

论文

[1]Zhiwei Zhou, Jiakang Yan, Xing Li, Jiawei Ren, Heng Liang*, Yongwang Liu, The pre-coated photocatalytic ceramic membrane with Bi₂O₃-TiO₂/powdered activated carbon nanoparticles to alleviate ultrafiltration fouling caused by intracellular organic matter ofMicrocystis aeruginosa,Journal of Membrane Science, 2023,122353.

[2]Chunjiao Liu,Zhiwei Zhou*, Xing Li, Rui Yu, Haiqing Chang, Jiawei Ren, Changyu Wang,Visible light photocatalysis alleviates ceramic membrane fouling caused by intracellular organic matter ofMicrocystis aeruginosa,Journal of Membrane Science, 2023,680,121757.

[3]Jianyong Feng, Xing Li, Yanling Yang,Zhiwei Zhou*, Heng Liang,Enhanced permeation performance of biofiltration-facilitated gravity-driven membrane (GDM) systems by in-situ application of UV and VUV: Comprehensive insights from thermodynamic and multi-omics perspectives,Water Research,2023,242,120254.

[4]Zhiwei Zhou, Yanyan Yao, Yanling Yang, Xing Li, Jiawei Ren, Jiangwei Qin, Ultrasound-assisted H₂O₂directional-modification of powdered activated carbon for the enhanced adsorption of secondary effluent organic matter from printing and dyeing processes,Journal of Hazardous Materials, 2023 (449) :131065.

[5]Zhiwei Zhou,Yaohua Yan,Xing Li,Senlin Shao,Effect of urea-based chemical cleaning on TrOCs rejection by nanofiltration membranes,Separation and Purification Technology,2023,315(3):123662.

[6]Zhiwei Zhou, Chunjiao Liu, Liping Tian, Huiping Wang, Yanling Yang,Xiaobo Wang, Xiaoxiang Cheng, Moderate pre-photocatalysis-enhanced coagulation alleviates ultrafiltration membrane fouling of algae-laden water,Journal of Water Process Engineering,2023,56,104406.

[7]Peng Du, Xing Li, Yanling Yang,Zhiwei Zhou*, Xiaoyan Fan, Haiqing Chang*, Heng Liang, Regulated-biofilms enhance the permeate flux and quality of gravity-driven membrane (GDM) by in situ coagulation combined with activated alumina filtration,Water Research, 2022, 209,11794.

[8]Jiaqi Li,Zhiwei Zhou*, Xing Li, Yanling Yang, Jingfeng Gao, Rui Yu, Huiping Wang, Nan Wang, Synergistically boosting sulfamerazine degradation via activation of peroxydisulfate by photocatalysis of Bi₂O₃-TiO₂/PAC under visible light irradiation,Chemical Engineering Journal,2022, 428,132613.

[9]Huiping Wang, Yanling Yang,Zhiwei Zhou*, Xing Li, Jingfeng Gao, Rui Yu, Jiaqi Li, Nan Wang, Haiqing Chang, Photocatalysis-enhanced coagulation for removal of intracellular organic matter fromMicrocystis aeruginosa: efficiency and mechanism,Separation and Purification Technology,2022, 283,120192.

[10]Haiqing Chang, Haikuan Yu, Xing Li,Zhiwei Zhou*, Heng Liang, Wuchang Song, Hongjie Ji, Ying Liang, Radisav D. Vidic*, Role of biological granular activated carbon in contaminant removal and ultrafiltration membrane performance in a full-scale system,Journal of Membrane science,2022, 644,120122.

[11]Jianyong Feng, Xing Li, Yanling Yang,Zhiwei Zhou*, Preparation of low-cost aluminum-loaded longan shell adsorbent for fluoride removal: Experimental and modeling studies,Journal of Environmental Chemical Engineering, 2022, 10,108917.

[12]Rui Yu, Yanling Yang,Zhiwei Zhou*, Xing Li, Jingfeng Gao, Nan Wang, Jiaqi Li, Yongwang Liu, Facile synthesis of ternary heterojunction Bi₂O₃/reduced graphene oxide/TiO₂composite with boosted visible-light photocatalytic activity,Separation and Purification Technology,2022 , 299,121712.

[13]Haikuan Yu, Xing Li, Haiqing Chang*,Zhiwei Zhou*, Yanling Yang, Tingting Zhang, Heng Liang, Hongjie Ji, Chuanyi Cai, Guibai Li, Performance of hollow fiber ultrafiltration membrane in a full-scale drinking water treatment plant in China: A systematic evaluation during 7-year operation,Journal of Membrane Science, 2020, 613, 118469.

[14]Peng Du, Xing Li, Yanling Yan,Zhiwei Zhou*, Xiaoyan Fan, Dual coagulation with floc breakage to alleviate ultrafiltration membrane fouling caused by algae organic matter,Desalination, 2020,493,114660

[15]Nan Wang, Xing Li, Yanling Yang,Zhiwei Zhou*, Yi Shang, Xiaoxuan Zhuang, Photocatalysis-coagulation to control ultrafiltration membrane fouling caused by natural organic matter,Journal of Cleaner Production, 2020,265,121790.

[16]Tingting Zhang, Yanling Yang, Xing Li, Nan Wang, Hang Li, Yifan Jiang, Peng Du, Xiaoyan Fan,Zhiwei Zhou*, Degradation of sulfamethazine by persulfate activated with nanosized zero-valent copper in combination with of ultrasonic irradiation,Separation and Purification Technology, 2020,239,116537.

[17]Zhang Tingting, Yanling Yang, Jingfeng Gao, Xing Li, Nan Wang, Hang Li, Yifan Jiang, Peng Du, Xiaoyan Fan,Zhiwei Zhou*, Synergistic degradation of chloramphenicol by ultrasound-enhanced nanoscale zero-valent iron/persulfate treatment,Separation and Purification Technology, 2020,240,116575.

[18]Nan Wang, Xing Li, Yanling Yang,Zhiwei Zhou*,Yi Shang, Xiaoxuan Zhuang, Photocatalytic degradation of sulfonamides by Bi₂O₃-TiO₂/PAC ternary composite: Mechanism, degradation pathway,Journal of Water Process Engineering, 2020, 36: 101335.

[19]Nan Wang, Xing Li, Yanling Yang,Zhiwei Zhou*,Yi Shang, Xiaoxuan Zhuang, Two-stage calcination composite of Bi₂O₃-TiO₂/PAC for enhanced degradation of sulfamethazine under solar irradiation,Journal of Water Process Engineering, 2020,35,101220.

[20]Yi Shang, Xing Li, Yanling Yang, Nan Wang, Xiaoxuan Zhuang,Zhiwei Zhou*, Optimized photocatalytic regeneration of adsorption-photocatalysis bifunctional composites saturated with methyl orange,Journal of Environmental Sciences-China,2020,94,40-51.

[21]Nan Wang, Xing Li, Yanling Yang, Yi Shang, Xiaoxuan Zhuang, Hang Li,Zhiwei Zhou*, Combined process of visible light irradiation photocatalysis-coagulation enhances natural organic matter removal: Optimization of influencing factors and mechanism,Chemical Engineering Journal, 2019,374,748-759.

[22]Nan Wang, Xing Li *, Yanling Yang, Tingting Guo, Xiaoxuan Zhuang, Siyang Ji, Tingting Zhang, Yi Shang,Zhiwei Zhou*, Enhanced photocatalytic degradation of sulfamethazine by Bi-doped TiO₂nano-composites supported by powdered activated carbon under visible light irradiation,Separation and Purification Technology, 2019,211,673-383.

[23]Peng Du, Xing Li, Yanling Yang, Zhaoyang Su, Hang Li, Tingting Guo, Tingting Zhang,Zhiwei Zhou*. Optimized coagulation pre-treatment alleviates ultrafiltration membrane fouling: The role of floc properties on mechanisms of chitosan and slow-mixing speed,Journal of Environmental Science-China, 2019,28,82-92.

[24]Zhiwei Zhou,Ruixin Zhang,Yanling Yang, XingLi; Jiawei Ren,Fate of sulfamerazine by synchronous adsorption and photocatalysis dependent on natural organic matter properties,EnvironmentalTechnology,2023.2224065（ESI高被引）

[25]Xinyu Li, Yanling Yang, Xing Li, Nan Wang, Tingting Zhang, Siyang Ji,Zhiwei Zhou*, Enhanced adsorption of aqueous acetone by modified powdered activated carbon,Environmental Technology,2019.1709903（ESI高被引）

专利

[1]杨艳玲,于瑞,李星,周志伟.一种基于连续变频超声波/臭氧溶液耦合作用的粉末活性炭低温热-液相原位再生方法. 202110995935.8,发明专利，已授权

[2]杨艳玲,于瑞,李星,周志伟.一种基于真空紫外线/氯/超声波耦合作用的粉末活性炭液态原位再生方法. 202110951934.3,发明专利，已授权

[3]杨艳玲,冀思扬,李星,周志伟,樊晓燕,于瑞.一种铁掺杂类石墨相氮化碳/石墨烯多功能纳米复合材料的制备方法.202010192166.3.发明专利，已授权

[4]李星,庄小璇,杨艳玲,周志伟,王男,商翌.一种多功能耦合的PAC/Bi₂O₃/TiO₂复合材料制备方法. 202010038894.9，发明专利，已授权

[5]周志伟，刘鲁建，董俊，等.一种基于自动控制的强化污泥回流混凝处理系统及方法.CN201610836589.8，发明专利，已授权

[6]周志伟,张睿鑫,李星.一种比较不同天然有机物对抗生素光催化去除抑制程度大小的方法.202310005419.5,发明专利（实质审查）

[7]周志伟,姚燕燕,李星,于瑞.一种高效评选粉末活性炭吸附有机物性能指标的方法CN202310022372.3,发明专利（实质审查）

[8]王晓波，田立平，周志伟.一种粉末活性炭再生系统及方法.202210378246.7,发明专利（实质审查）

[9]周志伟,左欣伟,田立平,王晓波.一种判断颗粒活性炭对有机污染组分吸附亲和性的方法.202211242678.1,发明专利（实质审查）

[10]田立平,王晓波,周志伟,刘春娇,于瑞.基于高梯度磁分离的含藻水源水处理方法及系统. 202210822588.3,发明专利（实质审查）

个人计划每年招收市政工程、环境工程等学科背景的博士研究生1~2名，硕士研究生3~4名。欢迎喜欢科研，踏实勤奋的同学报考。